Novel pterygotid sea scorpions from the Silurian and Devonian of Gondwana

Depiction of examined Australian eurypterids and the paleobiogeographic distribution of pterygotid eurypterids in the Silurian and Devonian. [Display omitted] •Novel Australian sea scorpions documented.•Pterygotids are the most common eurypterids in the Australian fossil record.•Distribution of larg...

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Bibliographic Details
Published in:Gondwana research 2024-11, Vol.135, p.282-292
Main Authors: Bicknell, Russell D.C., Smith, Patrick M., Goodman, Aaron, Schoon, Izak, Zhen, Yong Yi
Format: Article
Language:English
Subjects:
Eurypterida
Jaekelopterus rhenaniae
Merrimerriwa formation
Paleoecology
Pterygotus
Wallace Shale
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Summary:Depiction of examined Australian eurypterids and the paleobiogeographic distribution of pterygotid eurypterids in the Silurian and Devonian. [Display omitted] •Novel Australian sea scorpions documented.•Pterygotids are the most common eurypterids in the Australian fossil record.•Distribution of large sea scorpions explored. Sea scorpions (eurypterids) are a group of extinct aquatic chelicerates that have a fossil record spanning the Ordovician through to the end Permian extinction. Due to their size and preservational potential, eurypterids have been well-documented in European and North American deposits, with less evidence from Gondwana. There is particularly limited evidence of the group from the Australian fossil record. To rectify this, we report new examples of pterygotid eurypterids from the late Silurian Wallace Shale and Early Devonian Merrimerriwa Formation, Mulga Downs Group in New South Wales. These specimens are assigned to Pterygotus sp. (Wallace Shale) and Jaekelopterus c.f. rhenaniae (Merrimerriwa Formation, Mulga Downs Group). The material is used to explore the extensive distribution and dispersal of these large, pelagic eurypterids and consider the position of the animals in their respective paleoecosystems. We conclude that these new records evidence the diversity of larger arthropods in Australian deposits and that ongoing documentation of these rare fossils is required to further understand the Paleozoic of Australia.
ISSN:1342-937X
DOI:10.1016/j.gr.2024.08.005